#!/bin/bash

#当前路径,不需要修改
cur_path=`pwd`
#集合通信参数,不需要修改
export RANK_SIZE=8
export JOB_ID=10087
RANK_ID_START=0
export RANK_TABLE_FILE=${cur_path}/8p.json
# 数据集路径,保持为空,不需要修改
data_path=""
ckpt_path=""
#基础参数，需要模型审视修改
#网络名称，同目录名称
Network="Roberta_ID2366_for_TensorFlow"
batch_size=32
num_train_epochs=2


# 帮助信息，不需要修改
if [[ $1 == --help || $1 == -h ]];then
    echo"usage:./train_performance_1p.sh <args>"
    echo " "
    echo "parameter explain:
    --precision_mode         precision mode(allow_fp32_to_fp16/force_fp16/must_keep_origin_dtype/allow_mix_precision)
    --over_dump		           if or not over detection, default is False
    --data_dump_flag		     data dump flag, default is False
    --data_dump_step		     data dump step, default is 10
    --profiling		           if or not profiling for performance debug, default is False
    --data_path		           source data of training
    -h/--help		             show help message
    "
    exit 1
fi
#参数校验，不需要修改
for para in $*
do
    if [[ $para == --precision_mode* ]];then
        precision_mode=`echo ${para#*=}`
    elif [[ $para == --over_dump* ]];then
        over_dump=`echo ${para#*=}`
        over_dump_path=${cur_path}/output/overflow_dump
        mkdir -p ${over_dump_path}
    elif [[ $para == --data_dump_flag* ]];then
        data_dump_flag=`echo ${para#*=}`
        data_dump_path=${cur_path}/output/data_dump
        mkdir -p ${data_dump_path}
    elif [[ $para == --data_dump_step* ]];then
        data_dump_step=`echo ${para#*=}`
    elif [[ $para == --profiling* ]];then
        profiling=`echo ${para#*=}`
        profiling_dump_path=${cur_path}/output/profiling
        mkdir -p ${profiling_dump_path}
    elif [[ $para == --data_path* ]];then
        data_path=`echo ${para#*=}`
        echo "${data_path}"
	elif [[ $para == --ckpt_path* ]];then
        ckpt_path=`echo ${para#*=}`
    echo "${ckpt_path}"
    elif [[ $para == --iteration* ]];then
        iteration=`echo ${para#*=}`
    fi
done
#校验是否传入data_path,不需要修改
if [[ $data_path == "" ]];then
    echo "[Error] para \"data_path\" must be confing"
    exit 1
fi

#进入训练脚本目录，需要模型审视修改
cd $cur_path/../
#训练开始时间，不需要修改
start_time=$(date +%s)
for((RANK_ID=$RANK_ID_START;RANK_ID<$((RANK_SIZE+RANK_ID_START));RANK_ID++));
do
    #设置环境变量，不需要修改
    export ASCEND_DEVICE_ID=$RANK_ID
    echo "Device ID: $ASCEND_DEVICE_ID"
    export RANK_ID=$RANK_ID
    #创建DeviceID输出目录，不需要修改
    if [ -d ${cur_path}/output/${ASCEND_DEVICE_ID} ];then
        rm -rf ${cur_path}/output/${ASCEND_DEVICE_ID}
        mkdir -p ${cur_path}/output/$ASCEND_DEVICE_ID/ckpt
    else
        mkdir -p ${cur_path}/output/$ASCEND_DEVICE_ID/ckpt
    fi
    nohup python3 -u run_classifier.py  \
	    --task_name=xnli \
        --do_train=True  \
        --do_eval=True  \
		--data_dir=${data_path} \
		--vocab_file=${ckpt_path}/vocab.txt \
		--bert_config_file=${ckpt_path}/bert_config.json \
		--init_checkpoint=${ckpt_path}/bert_model.ckpt \
		--max_seq_length=128  \
        --train_batch_size=${batch_size}  \
		--learning_rate=3e-5 \
		--num_train_epochs=${num_train_epochs} \
        --output_dir=${cur_path}/output/$ASCEND_DEVICE_ID/ckpt  > ${cur_path}/output/${ASCEND_DEVICE_ID}/train_${ASCEND_DEVICE_ID}.log 2>&1 &
done 
wait
#训练结束时间，不需要修改
end_time=$(date +%s)
e2e_time=$(( $end_time - $start_time ))

#结果打印，不需要修改
echo "------------------ Final result ------------------"
#输出性能FPS，需要模型审视修改
FPS_1p=`grep examples/sec ${cur_path}/output/${ASCEND_DEVICE_ID}/train_${ASCEND_DEVICE_ID}.log | awk -F'examples/sec: ' 'END{print $2}'`
FPS=`awk 'BEGIN{printf "%.1f\n",'${FPS_1p}'*'${RANK_SIZE}'}'`
#打印，不需要修改
echo "Final Performance images/sec : $FPS"
#输出训练精度,需要模型审视修改
train_accuracy=`grep "eval_accuracy" $cur_path/output/$ASCEND_DEVICE_ID/train_$ASCEND_DEVICE_ID.log|awk 'END {print $7}'`
#打印，不需要修改
echo "Final Train Accuracy : ${train_accuracy}"
echo "E2E Training Duration sec : ${e2e_time}"
#性能看护结果汇总
#训练用例信息，不需要修改
BatchSize=${batch_size}
DeviceType=`uname -m`
CaseName="${Network}_bs${BatchSize}_${RANK_SIZE}p_acc"
##获取性能数据，不需要修改
#吞吐量
ActualFPS=${FPS}
#单迭代训练时长
TrainingTime=`awk 'BEGIN{printf "%.2f\n",'${BatchSize}'*'${RANK_SIZE}'/'${FPS}'}'`
#从train_$ASCEND_DEVICE_ID.log提取Loss到train_${CaseName}_loss.txt中，需要根据模型审视
grep "INFO:tensorflow:global_step " $cur_path/output/$ASCEND_DEVICE_ID/train_$ASCEND_DEVICE_ID.log | awk -F  " " '{print $6}' > $cur_path/output/$ASCEND_DEVICE_ID/train_${CaseName}_loss.txt
#最后一个迭代loss值，不需要修改' 
ActualLoss=(`awk 'END {print $NF}' $cur_path/output/$ASCEND_DEVICE_ID/train_${CaseName}_loss.txt`)
#关键信息打印到${CaseName}.log中，不需要修改
echo "Network = ${Network}" > $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
echo "RankSize = ${RANK_SIZE}" >> $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
echo "BatchSize = ${BatchSize}" >> $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
echo "DeviceType = ${DeviceType}" >> $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
echo "CaseName = ${CaseName}" >> $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
echo "ActualFPS = ${ActualFPS}" >> $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
echo "TrainAccuracy = ${train_accuracy}" >> $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
echo "TrainingTime = ${TrainingTime}" >> $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
echo "ActualLoss = ${ActualLoss}" >> $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
echo "E2ETrainingTime = ${e2e_time}" >> $cur_path/output/$ASCEND_DEVICE_ID/${CaseName}.log
